The amperage an electric skillet uses typically ranges from 5 to 15 amps, depending on its wattage and design. Most electric skillets operate between 1000 to 1800 watts. To calculate the amps, you can use the formula: Amps = Watts/Volts, where standard household voltage is usually 120 volts in the U.S. For example, an 1800-watt skillet would use about 15 amps.
A 1875 watt hair dryer typically draws around 15.6 amps. This can be calculated by dividing the wattage of the hair dryer by the voltage of the outlet it is plugged into, which is usually 120 volts in North America.
A typical household hair dryer requires around 1.5 to 2.0 kVA (kiloVolt-Amps) to operate. It's important to check the specific power requirements of your hair dryer, as this can vary depending on the model and brand.
Amps = Watts / (Volts x Power Factor). Now a hair dryer has a motor and a resistive heater so if we assume a PF = .8 the answer is: 1500 / 20 = 75 amps. Since it is unlikely that you have a 75 amp hair dryer you must mean 125 volts. The answer for that would be 1500 / 100 = 15 amps which is still high, but believable. If we assume a Power Factor of 1 and ignore the motor contribution to Power Factor we have 1500 / 125 = 12 amps.
The amperage of an electric blanket typically ranges from 2 to 12 amps, depending on its size and wattage. A standard electric blanket might use around 60 to 100 watts, which translates to approximately 0.5 to 0.8 amps at 120 volts. It's essential to check the manufacturer's specifications for exact ratings, as they can vary by model.
Yes, there are many "green" dryers on the market and some are better than others depending on how good the technology is. It depends on several factors: dry time, watts, and amps. Here's a list of hand dryers from "greenest" descending as per the manufacturer specs and a 120 V model: Mitsubishi Jet Towel (lowest settings): 12 seconds, 450 watts, 9.8 amps American Dryer eXt: 12 seconds, 540 watts, 4.5 amps Mitsubishi Jet Towel (highest settings): 10 seconds, 1060 watts, 9.8 amps American Dryer gXt: 10 seconds, 1500 watts, 12.5 amps Dyson Airblade: 10 seconds, 1400 watts, 12 amps Xlerator: 10 seconds, 1500 watts, 12.5 amps I guess you could also look at how many watts it takes to dry a pair of hands in 10 seconds as well, but it looks like Mitsubishi and American Dryer make the greenest hand dryers.
An average bolt of positive lightning carries an electric current of 300 kA = 300,000 Amps.
Usually 2,000 to 2,200 volts at 7 to 12 amps.
The amperage an electric skillet uses typically ranges from 5 to 15 amps, depending on its wattage and design. Most electric skillets operate between 1000 to 1800 watts. To calculate the amps, you can use the formula: Amps = Watts/Volts, where standard household voltage is usually 120 volts in the U.S. For example, an 1800-watt skillet would use about 15 amps.
Amount of electric current flowing through the vacuum. Watts: Amps multiplied by the power voltage drawn. Most upright cleaners are 7 to 12 amps. Many canister models are 12 amps. The maximum allowable amps that can be plugged into a household outlet is 12 amps.
240 volts
A 1875 watt hair dryer typically draws around 15.6 amps. This can be calculated by dividing the wattage of the hair dryer by the voltage of the outlet it is plugged into, which is usually 120 volts in North America.
The formula you are looking for is I = E/R. Amps = Volts/Resistance.
In North America, the standard is 240V, 60Hz.
A typical household hair dryer requires around 1.5 to 2.0 kVA (kiloVolt-Amps) to operate. It's important to check the specific power requirements of your hair dryer, as this can vary depending on the model and brand.
You can look at the rating plate on each appliance and see how many watts it is. So for example a 1500 w hair dryer, or an 1100 w microwave oven. A stove and an electric clothes dryer use more than that (but I have gas for those appliances, so I cannot look). A refrigerator would use a lot too, but I cannot see the plate on that one either. If it does not list watts but lists amps, then: Volts * Amps = Watts. Note that the 'big' appliances like the stove and clothes dryer are usually 240 volts, not 120 V.
Amps = Watts / (Volts x Power Factor). Now a hair dryer has a motor and a resistive heater so if we assume a PF = .8 the answer is: 1500 / 20 = 75 amps. Since it is unlikely that you have a 75 amp hair dryer you must mean 125 volts. The answer for that would be 1500 / 100 = 15 amps which is still high, but believable. If we assume a Power Factor of 1 and ignore the motor contribution to Power Factor we have 1500 / 125 = 12 amps.